import enum
import sys
import types
from _typeshed import Self
from collections import OrderedDict
from collections.abc import Awaitable, Callable, Generator, Mapping, Sequence
from types import (
    AsyncGeneratorType,
    BuiltinFunctionType,
    BuiltinMethodType,
    CodeType,
    CoroutineType,
    FrameType,
    FunctionType,
    GeneratorType,
    GetSetDescriptorType,
    LambdaType,
    MethodType,
    ModuleType,
    TracebackType,
)

if sys.version_info >= (3, 7):
    from types import ClassMethodDescriptorType, WrapperDescriptorType, MemberDescriptorType, MethodDescriptorType

from typing import Any, ClassVar, NamedTuple, Protocol, Tuple, Type, TypeVar, Union
from typing_extensions import Literal, TypeGuard

#
# Types and members
#
class EndOfBlock(Exception): ...

class BlockFinder:
    indent: int
    islambda: bool
    started: bool
    passline: bool
    indecorator: bool
    decoratorhasargs: bool
    last: int
    def tokeneater(self, type: int, token: str, srowcol: tuple[int, int], erowcol: tuple[int, int], line: str) -> None: ...

CO_OPTIMIZED: int
CO_NEWLOCALS: int
CO_VARARGS: int
CO_VARKEYWORDS: int
CO_NESTED: int
CO_GENERATOR: int
CO_NOFREE: int
CO_COROUTINE: int
CO_ITERABLE_COROUTINE: int
CO_ASYNC_GENERATOR: int
TPFLAGS_IS_ABSTRACT: int

def getmembers(object: object, predicate: Callable[[Any], bool] | None = ...) -> list[tuple[str, Any]]: ...
def getmodulename(path: str) -> str | None: ...
def ismodule(object: object) -> TypeGuard[ModuleType]: ...
def isclass(object: object) -> TypeGuard[Type[Any]]: ...
def ismethod(object: object) -> TypeGuard[MethodType]: ...
def isfunction(object: object) -> TypeGuard[FunctionType]: ...

if sys.version_info >= (3, 8):
    def isgeneratorfunction(obj: object) -> bool: ...
    def iscoroutinefunction(obj: object) -> bool: ...

else:
    def isgeneratorfunction(object: object) -> bool: ...
    def iscoroutinefunction(object: object) -> bool: ...

def isgenerator(object: object) -> TypeGuard[GeneratorType[Any, Any, Any]]: ...
def iscoroutine(object: object) -> TypeGuard[CoroutineType[Any, Any, Any]]: ...
def isawaitable(object: object) -> TypeGuard[Awaitable[Any]]: ...

if sys.version_info >= (3, 8):
    def isasyncgenfunction(obj: object) -> bool: ...

else:
    def isasyncgenfunction(object: object) -> bool: ...

_T_cont = TypeVar("_T_cont", contravariant=True)
_V_cont = TypeVar("_V_cont", contravariant=True)

class _SupportsSet(Protocol[_T_cont, _V_cont]):
    def __set__(self, __instance: _T_cont, __value: _V_cont) -> None: ...

class _SupportsDelete(Protocol[_T_cont]):
    def __delete__(self, __instance: _T_cont) -> None: ...

def isasyncgen(object: object) -> TypeGuard[AsyncGeneratorType[Any, Any]]: ...
def istraceback(object: object) -> TypeGuard[TracebackType]: ...
def isframe(object: object) -> TypeGuard[FrameType]: ...
def iscode(object: object) -> TypeGuard[CodeType]: ...
def isbuiltin(object: object) -> TypeGuard[BuiltinFunctionType]: ...

if sys.version_info < (3, 7):
    def isroutine(
        object: object,
    ) -> TypeGuard[FunctionType | LambdaType | MethodType | BuiltinFunctionType | BuiltinMethodType]: ...
    def ismethoddescriptor(object: object) -> bool: ...
    def ismemberdescriptor(object: object) -> bool: ...

else:
    def isroutine(
        object: object,
    ) -> TypeGuard[
        FunctionType
        | LambdaType
        | MethodType
        | BuiltinFunctionType
        | BuiltinMethodType
        | WrapperDescriptorType
        | MethodDescriptorType
        | ClassMethodDescriptorType
    ]: ...
    def ismethoddescriptor(object: object) -> TypeGuard[MethodDescriptorType]: ...
    def ismemberdescriptor(object: object) -> TypeGuard[MemberDescriptorType]: ...

def isabstract(object: object) -> bool: ...
def isgetsetdescriptor(object: object) -> TypeGuard[GetSetDescriptorType]: ...
def isdatadescriptor(object: object) -> TypeGuard[_SupportsSet[Any, Any] | _SupportsDelete[Any]]: ...

#
# Retrieving source code
#
_SourceObjectType = Union[ModuleType, Type[Any], MethodType, FunctionType, TracebackType, FrameType, CodeType, Callable[..., Any]]

def findsource(object: _SourceObjectType) -> tuple[list[str], int]: ...
def getabsfile(object: _SourceObjectType, _filename: str | None = ...) -> str: ...
def getblock(lines: Sequence[str]) -> Sequence[str]: ...
def getdoc(object: object) -> str | None: ...
def getcomments(object: object) -> str | None: ...
def getfile(object: _SourceObjectType) -> str: ...
def getmodule(object: object, _filename: str | None = ...) -> ModuleType | None: ...
def getsourcefile(object: _SourceObjectType) -> str | None: ...
def getsourcelines(object: _SourceObjectType) -> tuple[list[str], int]: ...
def getsource(object: _SourceObjectType) -> str: ...
def cleandoc(doc: str) -> str: ...
def indentsize(line: str) -> int: ...

#
# Introspecting callables with the Signature object
#
if sys.version_info >= (3, 10):
    def signature(
        obj: Callable[..., Any],
        *,
        follow_wrapped: bool = ...,
        globals: Mapping[str, Any] | None = ...,
        locals: Mapping[str, Any] | None = ...,
        eval_str: bool = ...,
    ) -> Signature: ...

else:
    def signature(obj: Callable[..., Any], *, follow_wrapped: bool = ...) -> Signature: ...

class _void: ...
class _empty: ...

class Signature:
    def __init__(
        self, parameters: Sequence[Parameter] | None = ..., *, return_annotation: Any = ..., __validate_parameters__: bool = ...
    ) -> None: ...
    empty = _empty
    @property
    def parameters(self) -> types.MappingProxyType[str, Parameter]: ...
    # TODO: can we be more specific here?
    @property
    def return_annotation(self) -> Any: ...
    def bind(self, *args: Any, **kwargs: Any) -> BoundArguments: ...
    def bind_partial(self, *args: Any, **kwargs: Any) -> BoundArguments: ...
    def replace(
        self: Self, *, parameters: Sequence[Parameter] | Type[_void] | None = ..., return_annotation: Any = ...
    ) -> Self: ...
    if sys.version_info >= (3, 10):
        @classmethod
        def from_callable(
            cls,
            obj: Callable[..., Any],
            *,
            follow_wrapped: bool = ...,
            globals: Mapping[str, Any] | None = ...,
            locals: Mapping[str, Any] | None = ...,
            eval_str: bool = ...,
        ) -> Signature: ...
    else:
        @classmethod
        def from_callable(cls, obj: Callable[..., Any], *, follow_wrapped: bool = ...) -> Signature: ...

if sys.version_info >= (3, 10):
    def get_annotations(
        obj: Callable[..., Any] | Type[Any] | ModuleType,
        *,
        globals: Mapping[str, Any] | None = ...,
        locals: Mapping[str, Any] | None = ...,
        eval_str: bool = ...,
    ) -> dict[str, Any]: ...

# The name is the same as the enum's name in CPython
class _ParameterKind(enum.IntEnum):
    POSITIONAL_ONLY: int
    POSITIONAL_OR_KEYWORD: int
    VAR_POSITIONAL: int
    KEYWORD_ONLY: int
    VAR_KEYWORD: int

    if sys.version_info >= (3, 8):
        description: str

class Parameter:
    def __init__(self, name: str, kind: _ParameterKind, *, default: Any = ..., annotation: Any = ...) -> None: ...
    empty = _empty
    name: str
    default: Any
    annotation: Any

    kind: _ParameterKind
    POSITIONAL_ONLY: ClassVar[Literal[_ParameterKind.POSITIONAL_ONLY]]
    POSITIONAL_OR_KEYWORD: ClassVar[Literal[_ParameterKind.POSITIONAL_OR_KEYWORD]]
    VAR_POSITIONAL: ClassVar[Literal[_ParameterKind.VAR_POSITIONAL]]
    KEYWORD_ONLY: ClassVar[Literal[_ParameterKind.KEYWORD_ONLY]]
    VAR_KEYWORD: ClassVar[Literal[_ParameterKind.VAR_KEYWORD]]
    def replace(
        self: Self,
        *,
        name: str | Type[_void] = ...,
        kind: _ParameterKind | Type[_void] = ...,
        default: Any = ...,
        annotation: Any = ...,
    ) -> Self: ...

class BoundArguments:
    arguments: OrderedDict[str, Any]
    args: Tuple[Any, ...]
    kwargs: dict[str, Any]
    signature: Signature
    def __init__(self, signature: Signature, arguments: OrderedDict[str, Any]) -> None: ...
    def apply_defaults(self) -> None: ...

#
# Classes and functions
#

# TODO: The actual return type should be list[_ClassTreeItem] but mypy doesn't
# seem to be supporting this at the moment:
# _ClassTreeItem = list[_ClassTreeItem] | Tuple[type, Tuple[type, ...]]
def getclasstree(classes: list[type], unique: bool = ...) -> list[Any]: ...
def walktree(classes: list[type], children: dict[Type[Any], list[type]], parent: Type[Any] | None) -> list[Any]: ...

class ArgSpec(NamedTuple):
    args: list[str]
    varargs: str | None
    keywords: str | None
    defaults: Tuple[Any, ...]

class Arguments(NamedTuple):
    args: list[str]
    varargs: str | None
    varkw: str | None

def getargs(co: CodeType) -> Arguments: ...
def getargspec(func: object) -> ArgSpec: ...

class FullArgSpec(NamedTuple):
    args: list[str]
    varargs: str | None
    varkw: str | None
    defaults: Tuple[Any, ...] | None
    kwonlyargs: list[str]
    kwonlydefaults: dict[str, Any] | None
    annotations: dict[str, Any]

def getfullargspec(func: object) -> FullArgSpec: ...

class ArgInfo(NamedTuple):
    args: list[str]
    varargs: str | None
    keywords: str | None
    locals: dict[str, Any]

def getargvalues(frame: FrameType) -> ArgInfo: ...
def formatannotation(annotation: object, base_module: str | None = ...) -> str: ...
def formatannotationrelativeto(object: object) -> Callable[[object], str]: ...
def formatargspec(
    args: list[str],
    varargs: str | None = ...,
    varkw: str | None = ...,
    defaults: Tuple[Any, ...] | None = ...,
    kwonlyargs: Sequence[str] | None = ...,
    kwonlydefaults: dict[str, Any] | None = ...,
    annotations: dict[str, Any] = ...,
    formatarg: Callable[[str], str] = ...,
    formatvarargs: Callable[[str], str] = ...,
    formatvarkw: Callable[[str], str] = ...,
    formatvalue: Callable[[Any], str] = ...,
    formatreturns: Callable[[Any], str] = ...,
    formatannotation: Callable[[Any], str] = ...,
) -> str: ...
def formatargvalues(
    args: list[str],
    varargs: str | None,
    varkw: str | None,
    locals: dict[str, Any] | None,
    formatarg: Callable[[str], str] | None = ...,
    formatvarargs: Callable[[str], str] | None = ...,
    formatvarkw: Callable[[str], str] | None = ...,
    formatvalue: Callable[[Any], str] | None = ...,
) -> str: ...
def getmro(cls: type) -> Tuple[type, ...]: ...
def getcallargs(__func: Callable[..., Any], *args: Any, **kwds: Any) -> dict[str, Any]: ...

class ClosureVars(NamedTuple):
    nonlocals: Mapping[str, Any]
    globals: Mapping[str, Any]
    builtins: Mapping[str, Any]
    unbound: set[str]

def getclosurevars(func: Callable[..., Any]) -> ClosureVars: ...
def unwrap(func: Callable[..., Any], *, stop: Callable[[Any], Any] | None = ...) -> Any: ...

#
# The interpreter stack
#

class Traceback(NamedTuple):
    filename: str
    lineno: int
    function: str
    code_context: list[str] | None
    index: int | None  # type: ignore

class FrameInfo(NamedTuple):
    frame: FrameType
    filename: str
    lineno: int
    function: str
    code_context: list[str] | None
    index: int | None  # type: ignore

def getframeinfo(frame: FrameType | TracebackType, context: int = ...) -> Traceback: ...
def getouterframes(frame: Any, context: int = ...) -> list[FrameInfo]: ...
def getinnerframes(tb: TracebackType, context: int = ...) -> list[FrameInfo]: ...
def getlineno(frame: FrameType) -> int: ...
def currentframe() -> FrameType | None: ...
def stack(context: int = ...) -> list[FrameInfo]: ...
def trace(context: int = ...) -> list[FrameInfo]: ...

#
# Fetching attributes statically
#

def getattr_static(obj: object, attr: str, default: Any | None = ...) -> Any: ...

#
# Current State of Generators and Coroutines
#

# TODO In the next two blocks of code, can we be more specific regarding the
# type of the "enums"?

GEN_CREATED: str
GEN_RUNNING: str
GEN_SUSPENDED: str
GEN_CLOSED: str

def getgeneratorstate(generator: Generator[Any, Any, Any]) -> str: ...

CORO_CREATED: str
CORO_RUNNING: str
CORO_SUSPENDED: str
CORO_CLOSED: str
# TODO can we be more specific than "object"?
def getcoroutinestate(coroutine: object) -> str: ...
def getgeneratorlocals(generator: Generator[Any, Any, Any]) -> dict[str, Any]: ...

# TODO can we be more specific than "object"?
def getcoroutinelocals(coroutine: object) -> dict[str, Any]: ...

# Create private type alias to avoid conflict with symbol of same
# name created in Attribute class.
_Object = object

class Attribute(NamedTuple):
    name: str
    kind: str
    defining_class: type
    object: _Object

def classify_class_attrs(cls: type) -> list[Attribute]: ...

if sys.version_info >= (3, 9):
    class ClassFoundException(Exception): ...
